Add to ORKGABSTRACT: We present a theoretical and numerical analysis of the mechanical behavior of self-healing materials using an analytical model and numerical calculations both based on a Hierarchical Fiber Bundle Model, and applying them to graphene- or carbon-nanotube-based materials. The self-healing process can be described essentially through a single parameter, that is, the healing rate, but numerical simulations also highlight the influence of the location of the healing process on the overall strengthening and toughening of the material. The role of hierarchy is discussed, showing that full-scale hierarchical structures can in fact acquire more favorable properties than smaller, nonhierarchical ones through interaction with the self-healing...
The subject of this paper is the mathematical modelling of the crack self-healing process. For self-...
Abstract In this paper the simplest mathematical model to design nano-bio-inspired hier-archical mat...
While contribution of physics to model fracture of materials is significant, the “reversed” process ...
We present a theoretical and numerical analysis of the mechanical behavior of self-healing materials...
Abstract: Self-healing materials are a class of solids that have the capability to repair damage aut...
Biological materials such as spider silk display hierarchical structures, from nano to macro, effect...
Structural hierarchy coupled with material heterogeneity is often identifi ed in natural materials, ...
: One of the defining properties of biological structural materials is that of self-healing, i.e. th...
Molecular Dynamics simulations revealed the phenomena of self healing of cracks which were generated...
A number of self healing mechanisms for composite materials have been presented in the previous chap...
The present contribution introduces a phenomenological model for self-healing polymers. Self-healing...
Modern man-made engineering materials demonstrate excellent mechanical properties, but the lack of t...
Any biological system in the world has its own mechanism of response towards cuts and cracks. Whenev...
Bioinspired materials often achieve superior mechanical properties owing to their microscale archite...
Load-carrying materials in nature, such as wood and bone, consist of relatively simple building bloc...
The subject of this paper is the mathematical modelling of the crack self-healing process. For self-...
Abstract In this paper the simplest mathematical model to design nano-bio-inspired hier-archical mat...
While contribution of physics to model fracture of materials is significant, the “reversed” process ...
We present a theoretical and numerical analysis of the mechanical behavior of self-healing materials...
Abstract: Self-healing materials are a class of solids that have the capability to repair damage aut...
Biological materials such as spider silk display hierarchical structures, from nano to macro, effect...
Structural hierarchy coupled with material heterogeneity is often identifi ed in natural materials, ...
: One of the defining properties of biological structural materials is that of self-healing, i.e. th...
Molecular Dynamics simulations revealed the phenomena of self healing of cracks which were generated...
A number of self healing mechanisms for composite materials have been presented in the previous chap...
The present contribution introduces a phenomenological model for self-healing polymers. Self-healing...
Modern man-made engineering materials demonstrate excellent mechanical properties, but the lack of t...
Any biological system in the world has its own mechanism of response towards cuts and cracks. Whenev...
Bioinspired materials often achieve superior mechanical properties owing to their microscale archite...
Load-carrying materials in nature, such as wood and bone, consist of relatively simple building bloc...
The subject of this paper is the mathematical modelling of the crack self-healing process. For self-...
Abstract In this paper the simplest mathematical model to design nano-bio-inspired hier-archical mat...
While contribution of physics to model fracture of materials is significant, the “reversed” process ...